ratatui/examples/prototype.rs

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Rust
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extern crate tui;
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#[macro_use]
extern crate log;
extern crate log4rs;
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extern crate termion;
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extern crate rand;
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use std::thread;
use std::time;
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use std::sync::mpsc;
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use std::io::stdin;
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use rand::distributions::{IndependentSample, Range};
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use termion::event;
use termion::input::TermRead;
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use log::LogLevelFilter;
use log4rs::append::file::FileAppender;
use log4rs::encode::pattern::PatternEncoder;
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use log4rs::config::{Appender, Config, Root};
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use tui::Terminal;
use tui::widgets::{Widget, Block, List, Gauge, Sparkline, Text, border, Chart, Axis, Dataset};
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use tui::layout::{Group, Direction, Alignment, Size};
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use tui::style::Color;
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#[derive(Clone)]
struct RandomSignal {
range: Range<u64>,
rng: rand::ThreadRng,
}
impl RandomSignal {
fn new(r: Range<u64>) -> RandomSignal {
RandomSignal {
range: r,
rng: rand::thread_rng(),
}
}
}
impl Iterator for RandomSignal {
type Item = u64;
fn next(&mut self) -> Option<u64> {
Some(self.range.ind_sample(&mut self.rng))
}
}
#[derive(Clone)]
struct SinSignal {
x: f64,
period: f64,
scale: f64,
}
impl SinSignal {
fn new(period: f64, scale: f64) -> SinSignal {
SinSignal {
x: 0.0,
period: period,
scale: scale,
}
}
}
impl Iterator for SinSignal {
type Item = (f64, f64);
fn next(&mut self) -> Option<(f64, f64)> {
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self.x += 1.0;
Some((self.x, ((self.x * 1.0 / self.period).sin() + 1.0) * self.scale))
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}
}
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struct App<'a> {
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name: String,
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items: Vec<&'a str>,
items2: Vec<&'a str>,
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selected: usize,
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show_chart: bool,
progress: u16,
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data: Vec<u64>,
data2: Vec<(f64, f64)>,
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data3: Vec<(f64, f64)>,
window: [f64; 2],
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colors: [Color; 2],
color_index: usize,
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}
enum Event {
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Input(event::Key),
Tick,
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}
fn main() {
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let log = FileAppender::builder()
.encoder(Box::new(PatternEncoder::new("{l} / {d(%H:%M:%S)} / {M}:{L}{n}{m}{n}{n}")))
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.build("prototype.log")
.unwrap();
let config = Config::builder()
.appender(Appender::builder().build("log", Box::new(log)))
.build(Root::builder().appender("log").build(LogLevelFilter::Debug))
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.unwrap();
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log4rs::init_config(config).unwrap();
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info!("Start");
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let mut rand_signal = RandomSignal::new(Range::new(0, 100));
let mut sin_signal = SinSignal::new(4.0, 20.0);
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let mut sin_signal2 = SinSignal::new(2.0, 10.0);
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let mut app = App {
name: String::from("Test app"),
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items: vec!["Item1", "Item2", "Item3", "Item4", "Item5", "Item6", "Item7", "Item8",
"Item9", "Item10"],
items2: vec!["Event1", "Event2", "Event3", "Event4", "Event5", "Event6", "Event7",
"Event8", "Event9", "Event10", "Event11", "Event12", "Event13", "Event14",
"Event15", "Event16", "Event17"],
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selected: 0,
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show_chart: true,
progress: 0,
data: rand_signal.clone().take(200).collect(),
data2: sin_signal.clone().take(20).collect(),
data3: sin_signal2.clone().take(20).collect(),
window: [0.0, 20.0],
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colors: [Color::Magenta, Color::Red],
color_index: 0,
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};
let (tx, rx) = mpsc::channel();
let input_tx = tx.clone();
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for i in 0..20 {
sin_signal.next();
sin_signal2.next();
}
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thread::spawn(move || {
let stdin = stdin();
for c in stdin.keys() {
let evt = c.unwrap();
input_tx.send(Event::Input(evt)).unwrap();
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if evt == event::Key::Char('q') {
break;
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}
}
});
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thread::spawn(move || {
let tx = tx.clone();
loop {
tx.send(Event::Tick).unwrap();
thread::sleep(time::Duration::from_millis(200));
}
});
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let mut terminal = Terminal::new().unwrap();
terminal.clear();
terminal.hide_cursor();
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loop {
terminal.clear();
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draw(&mut terminal, &app);
let evt = rx.recv().unwrap();
match evt {
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Event::Input(input) => {
match input {
event::Key::Char('q') => {
break;
}
event::Key::Up => {
if app.selected > 0 {
app.selected -= 1
};
}
event::Key::Down => {
if app.selected < app.items.len() - 1 {
app.selected += 1;
}
}
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event::Key::Char('t') => {
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app.show_chart = !app.show_chart;
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}
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_ => {}
}
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}
Event::Tick => {
app.progress += 5;
if app.progress > 100 {
app.progress = 0;
}
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app.data.insert(0, rand_signal.next().unwrap());
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app.data.pop();
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app.data2.remove(0);
app.data2.push(sin_signal.next().unwrap());
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app.data3.remove(0);
app.data3.push(sin_signal2.next().unwrap());
app.window[0] += 1.0;
app.window[1] += 1.0;
app.selected += 1;
if app.selected >= app.items.len() {
app.selected = 0;
}
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let i = app.items2.pop().unwrap();
app.items2.insert(0, i);
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app.color_index += 1;
if app.color_index >= app.colors.len() {
app.color_index = 0;
}
}
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}
}
terminal.show_cursor();
}
fn draw(t: &mut Terminal, app: &App) {
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let size = Terminal::size().unwrap();
Group::default()
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.direction(Direction::Vertical)
.alignment(Alignment::Left)
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.chunks(&[Size::Fixed(7), Size::Min(5), Size::Fixed(5)])
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.render(t, &size, |t, chunks| {
Block::default().borders(border::ALL).title("Graphs").render(&chunks[0], t);
Group::default()
.direction(Direction::Vertical)
.alignment(Alignment::Left)
.margin(1)
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.chunks(&[Size::Fixed(2), Size::Fixed(3)])
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.render(t, &chunks[0], |t, chunks| {
Gauge::default()
.block(Block::default().title("Gauge:"))
.bg(Color::Magenta)
.percent(app.progress)
.render(&chunks[0], t);
Sparkline::default()
.block(Block::default().title("Sparkline:"))
.fg(Color::Green)
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.data(&app.data)
.render(&chunks[1], t);
});
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let sizes = if app.show_chart {
vec![Size::Max(40), Size::Min(20)]
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} else {
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vec![Size::Max(40)]
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};
Group::default()
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.direction(Direction::Horizontal)
.alignment(Alignment::Left)
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.chunks(&sizes)
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.render(t, &chunks[1], |t, chunks| {
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Group::default()
.direction(Direction::Vertical)
.chunks(&[Size::Min(20), Size::Max(40)])
.render(t, &chunks[0], |t, chunks| {
Group::default()
.direction(Direction::Horizontal)
.chunks(&[Size::Max(20), Size::Min(0)])
.render(t, &chunks[0], |t, chunks| {
List::default()
.block(Block::default().borders(border::ALL).title("List"))
.items(&app.items)
.select(app.selected)
.selection_color(Color::LightYellow)
.selection_symbol(">")
.render(&chunks[0], t);
List::default()
.block(Block::default().borders(border::ALL).title("List"))
.items(&app.items2)
.render(&chunks[1], t);
})
});
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if app.show_chart {
Chart::default()
.block(Block::default().title("Chart"))
.x_axis(Axis::default()
.title("X Axis")
.color(Color::Gray)
.bounds(app.window)
.labels(&[&format!("{}", app.window[0]),
&format!("{}", (app.window[0] + app.window[1]) / 2.0),
&format!("{}", app.window[1])]))
.y_axis(Axis::default()
.title("Y Axis")
.color(Color::Gray)
.bounds([0.0, 40.0])
.labels(&["0", "20", "40"]))
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.datasets(&[Dataset::default().color(Color::Cyan).data(&app.data2),
Dataset::default().color(Color::Yellow).data(&app.data3)])
.render(&chunks[1], t);
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}
});
Text::default()
.block(Block::default().borders(border::ALL).title("Footer"))
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.fg(app.colors[app.color_index])
.text("日本国 UTF-8 charaters")
.render(&chunks[2], t);
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});
}